optiboot auto-switch baud rate

v2.1 v2.1.beta5
Thorsten von Eicken 9 years ago
parent c3e1a8a83b
commit 4e100b0142
  1. 76
      esp-link/cgioptiboot.c

@ -10,8 +10,11 @@
#include "serbridge.h" #include "serbridge.h"
#include "serled.h" #include "serled.h"
#define SYNC_TIMEOUT (2000) // to achieve sync, in milliseconds #define SYNC_TIMEOUT 3600 // to achieve sync on initial baud rate, in milliseconds
#define PGM_TIMEOUT (20000) // when sync is achieved, in milliseconds #define SYNC_INTERVAL 25 // interval at which we try to sync
#define BAUD_INTERVAL 400 // interval after which we change baud rate
#define PGM_TIMEOUT 20000 // timeout when sync is achieved, in milliseconds
#define PGM_INTERVAL 200 // send sync at this interval in ms when in programming mode
#define OPTIBOOT_DBG #define OPTIBOOT_DBG
#undef DBG #undef DBG
@ -21,7 +24,7 @@
#define DBG(format, ...) do { } while(0) #define DBG(format, ...) do { } while(0)
#endif #endif
#define DBG_GPIO5 0 // define to 1 to use GPIO5 to trigger scope #define DBG_GPIO5 1 // define to 1 to use GPIO5 to trigger scope
//===== global state //===== global state
@ -35,8 +38,10 @@ static enum { // overall programming states
stateProg, // programming... stateProg, // programming...
} progState; } progState;
static short syncCnt; // counter & timeout for sync attempts static short syncCnt; // counter & timeout for sync attempts
static short baudCnt; // counter for sync attempts at different baud rates
static short ackWait; // counter of expected ACKs static short ackWait; // counter of expected ACKs
static uint16_t optibootVers; static uint16_t optibootVers;
static uint32_t baudRate; // baud rate at which we're programming
#define RESP_SZ 64 #define RESP_SZ 64
static char responseBuf[RESP_SZ]; // buffer to accumulate responses from optiboot static char responseBuf[RESP_SZ]; // buffer to accumulate responses from optiboot
@ -65,11 +70,14 @@ static void optibootTimerCB(void *);
static void optibootUartRecv(char *buffer, short length); static void optibootUartRecv(char *buffer, short length);
static bool processRecord(char *buf, short len); static bool processRecord(char *buf, short len);
static bool programPage(void); static bool programPage(void);
static void ICACHE_FLASH_ATTR armTimer(); static void armTimer(void);
static void initBaud(void);
static void ICACHE_FLASH_ATTR optibootInit() { static void ICACHE_FLASH_ATTR optibootInit() {
progState = stateSync; progState = stateSync;
syncCnt = 0; syncCnt = 0;
baudCnt = 0;
uart0_baud(flashConfig.baud_rate);
ackWait = 0; ackWait = 0;
errMessage[0] = 0; errMessage[0] = 0;
responseLen = 0; responseLen = 0;
@ -88,14 +96,12 @@ static void ICACHE_FLASH_ATTR optibootInit() {
// append one string to another but visually escape non-printing characters in the second // append one string to another but visually escape non-printing characters in the second
// string using \x00 hex notation, max is the max chars in the concatenated string. // string using \x00 hex notation, max is the max chars in the concatenated string.
void ICACHE_FLASH_ATTR appendPretty(char *buf, char *raw, int max) { void ICACHE_FLASH_ATTR appendPretty(char *buf, int max, char *raw, int rawLen) {
int off = strlen(buf); int off = strlen(buf);
int i = 0; max -= off + 1; // for null termination
while (off < max-5) { for (int i=0; i<max && i<rawLen; i++) {
unsigned char c = raw[i++]; unsigned char c = raw[i++];
if (c == 0) { if (c >= ' ' && c <= '~') {
break;
} else if (c >= ' ' && c <= '~') {
buf[off++] = c; buf[off++] = c;
} else if (c == '\n') { } else if (c == '\n') {
buf[off++] = '\\'; buf[off++] = '\\';
@ -124,7 +130,9 @@ int ICACHE_FLASH_ATTR cgiOptibootSync(HttpdConnData *connData) {
} else if (connData->requestType == HTTPD_METHOD_POST) { } else if (connData->requestType == HTTPD_METHOD_POST) {
// issue reset // issue reset
optibootInit(); optibootInit();
baudRate = flashConfig.baud_rate;
programmingCB = optibootUartRecv; programmingCB = optibootUartRecv;
initBaud();
serbridgeReset(); serbridgeReset();
#if DBG_GPIO5 #if DBG_GPIO5
makeGpio(5); makeGpio(5);
@ -147,13 +155,14 @@ int ICACHE_FLASH_ATTR cgiOptibootSync(HttpdConnData *connData) {
if (!errMessage[0] && progState >= stateProg) { if (!errMessage[0] && progState >= stateProg) {
char buf[64]; char buf[64];
DBG("OB got sync\n"); DBG("OB got sync\n");
os_sprintf(buf, "SYNC : Optiboot %d.%d", optibootVers>>8, optibootVers&0xff); os_sprintf(buf, "SYNC at %ld baud: Optiboot %d.%d",
baudRate, optibootVers>>8, optibootVers&0xff);
httpdSend(connData, buf, -1); httpdSend(connData, buf, -1);
} else if (errMessage[0] && progState == stateSync) { } else if (errMessage[0] && progState == stateSync) {
DBG("OB cannot sync\n"); DBG("OB cannot sync\n");
char buf[512]; char buf[512];
os_sprintf(buf, "FAILED to SYNC: %s, got:\r\n", errMessage); os_sprintf(buf, "FAILED to SYNC: %s, got: %d chars\r\n", errMessage, responseLen);
appendPretty(buf, responseBuf, 512); appendPretty(buf, 512, responseBuf, responseLen);
httpdSend(connData, buf, -1); httpdSend(connData, buf, -1);
} else { } else {
httpdSend(connData, errMessage[0] ? errMessage : "NOT READY", -1); httpdSend(connData, errMessage[0] ? errMessage : "NOT READY", -1);
@ -306,9 +315,9 @@ int ICACHE_FLASH_ATTR cgiOptibootData(HttpdConnData *connData) {
float dt = ((system_get_time() - optibootData->startTime)/1000)/1000.0; // in seconds float dt = ((system_get_time() - optibootData->startTime)/1000)/1000.0; // in seconds
uint16_t pgmDone = optibootData->pgmDone; uint16_t pgmDone = optibootData->pgmDone;
optibootInit(); optibootInit();
os_sprintf(errMessage, "Success. %d bytes in %d.%ds, %dB/s %d%% efficient", os_sprintf(errMessage, "Success. %d bytes at %ld baud in %d.%ds, %dB/s %d%% efficient",
pgmDone, (int)dt, (int)(dt*10)%10, (int)(pgmDone/dt), pgmDone, baudRate, (int)dt, (int)(dt*10)%10, (int)(pgmDone/dt),
(int)(100.0*(10.0*pgmDone/flashConfig.baud_rate)/dt)); (int)(100.0*(10.0*pgmDone/baudRate)/dt));
} else { } else {
code = 400; code = 400;
optibootInit(); optibootInit();
@ -484,24 +493,43 @@ static bool ICACHE_FLASH_ATTR programPage(void) {
static void ICACHE_FLASH_ATTR armTimer() { static void ICACHE_FLASH_ATTR armTimer() {
os_timer_disarm(&optibootTimer); os_timer_disarm(&optibootTimer);
// time-out every 50ms, except when programming to allow for 9600baud (133ms for 128 bytes) // time-out every 50ms, except when programming to allow for 9600baud (133ms for 128 bytes)
os_timer_arm(&optibootTimer, progState==stateProg ? 200 : 50, 0); os_timer_arm(&optibootTimer, progState==stateProg ? PGM_INTERVAL : SYNC_INTERVAL, 0);
}
static int baudRates[] = { 0, 9600, 57600, 115200 };
static void ICACHE_FLASH_ATTR setBaud() {
baudRate = baudRates[(syncCnt / (BAUD_INTERVAL/SYNC_INTERVAL)) % 4];
uart0_baud(baudRate);
//DBG("OB changing to %d baud\n", b);
}
static void ICACHE_FLASH_ATTR initBaud() {
baudRates[0] = flashConfig.baud_rate;
setBaud();
} }
static void ICACHE_FLASH_ATTR optibootTimerCB(void *arg) { static void ICACHE_FLASH_ATTR optibootTimerCB(void *arg) {
// see whether we've issued so many sync in a row that it's time to give up // see whether we've issued so many sync in a row that it's time to give up
syncCnt++; syncCnt++;
if ((progState == stateSync && syncCnt > SYNC_TIMEOUT/50) || switch (progState) {
syncCnt > PGM_TIMEOUT/50) { case stateSync: // we're trying to get sync, all we do here is send a sync request
DBG("OB abandoned after timeout, state=%d syncCnt=%d\n", progState, syncCnt); if (syncCnt >= SYNC_TIMEOUT/SYNC_INTERVAL) {
// we're doomed, give up
DBG("OB sync abandoned after timeout, state=%d syncCnt=%d\n", progState, syncCnt);
optibootInit(); optibootInit();
strcpy(errMessage, "abandoned after timeout"); strcpy(errMessage, "sync abandoned after timeout");
return; return;
} }
if (syncCnt % (BAUD_INTERVAL/SYNC_INTERVAL) == 0) {
switch (progState) { // time to switch baud rate and issue a reset
case stateSync: // we're trying to get sync, all we do here is send a sync request setBaud();
serbridgeReset();
// no point sending chars if we just switched
} else {
uart0_write_char(STK_GET_SYNC); uart0_write_char(STK_GET_SYNC);
uart0_write_char(CRC_EOP); uart0_write_char(CRC_EOP);
}
break; break;
case stateProg: // we're programming and we timed-out of inaction case stateProg: // we're programming and we timed-out of inaction
uart0_write_char(STK_GET_SYNC); uart0_write_char(STK_GET_SYNC);

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